Advanced search
1 file | 5.52 MB Add to list

Towards a molecular level understanding of active sites for catalysis and the interactions with solvents in zirconium based metal-organic frameworks at operating conditions

(2019)
Author
Promoter
(UGent)
Organization

Downloads

  • (...).pdf
    • full text
    • |
    • UGent only
    • |
    • PDF
    • |
    • 5.52 MB

Citation

Please use this url to cite or link to this publication:

MLA
Caratelli, Chiara. Towards a Molecular Level Understanding of Active Sites for Catalysis and the Interactions with Solvents in Zirconium Based Metal-Organic Frameworks at Operating Conditions. Ghent University. Faculty of Engineering and Architecture, 2019.
APA
Caratelli, C. (2019). Towards a molecular level understanding of active sites for catalysis and the interactions with solvents in zirconium based metal-organic frameworks at operating conditions. Ghent University. Faculty of Engineering and Architecture, Ghent, Belgium.
Chicago author-date
Caratelli, Chiara. 2019. “Towards a Molecular Level Understanding of Active Sites for Catalysis and the Interactions with Solvents in Zirconium Based Metal-Organic Frameworks at Operating Conditions.” Ghent, Belgium: Ghent University. Faculty of Engineering and Architecture.
Chicago author-date (all authors)
Caratelli, Chiara. 2019. “Towards a Molecular Level Understanding of Active Sites for Catalysis and the Interactions with Solvents in Zirconium Based Metal-Organic Frameworks at Operating Conditions.” Ghent, Belgium: Ghent University. Faculty of Engineering and Architecture.
Vancouver
1.
Caratelli C. Towards a molecular level understanding of active sites for catalysis and the interactions with solvents in zirconium based metal-organic frameworks at operating conditions. [Ghent, Belgium]: Ghent University. Faculty of Engineering and Architecture; 2019.
IEEE
[1]
C. Caratelli, “Towards a molecular level understanding of active sites for catalysis and the interactions with solvents in zirconium based metal-organic frameworks at operating conditions,” Ghent University. Faculty of Engineering and Architecture, Ghent, Belgium, 2019.
@phdthesis{8642697,
  author       = {Caratelli, Chiara},
  isbn         = {9789463552837},
  language     = {eng},
  pages        = {XXV, 225},
  publisher    = {Ghent University. Faculty of Engineering and Architecture},
  school       = {Ghent University},
  title        = {Towards a molecular level understanding of active sites for catalysis and the interactions with solvents in zirconium based metal-organic frameworks at operating conditions},
  year         = {2019},
}